Mapping the density of giant trees in the Amazon

IF 8.1 1区生物学 Q1 PLANT SCIENCES

New Phytologist Pub Date : 2025-10-14 DOI:10.1111/nph.70634

Robson Borges de Lima, Diego Armando Silva da Silva, Matheus Henrique Nunes, Paulo R. de Lima Bittencourt, Peter Groenendyk, Cinthia Pereira de Oliveira, Daniela Granato‐Souza, Rinaldo L. Caraciolo Ferreira, José A. Aleixo da Silva, Jesús Aguirre‐Gutiérrez, Toby Jackson, João R. de Matos Filho, Perseu da Silva Aparício, Joselane P. Gomes da Silva, José Julio de Toledo, Marcelino Carneiro Guedes, Danilo R. Alves de Almeida, Niro Higuchi, Fabien H. Wagner, Jean Pierre Ometto, Eric Bastos Görgens

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引用次数: 0

Abstract

Summary

Tall trees (height ≥ 60 m) are keystone elements of tropical forests, strongly influencing biodiversity, carbon storage, and ecosystem resilience. Yet, their density and spatial distribution remain poorly quantified, especially in remote Amazonian regions, limiting our understanding of their ecological roles and contribution to forest–climate interactions.

We combined airborne LiDAR data from 900 transects across the Brazilian Amazon with environmental predictors to model tall‐tree density. Spatial extrapolations allowed us to generate regional distribution estimates and assess associations with climate, topography, and disturbance regimes.

Our model predicts that tall trees are unevenly distributed, with c. 14% of the estimated density concentrated in c. 1% of the Amazon and c. 50% within c. 11%. The highest densities occur in Roraima and the Guiana Shield provinces, where water availability is high and lightning or storm incidence is low. Modeled density strongly correlates with aboveground biomass, highlighting the disproportionate contribution of tall trees to carbon stocks. We estimate c. 55.5 million tall trees across the Brazilian Amazon.

These findings demonstrate that tall‐tree distribution is a crucial but underused predictor for biomass models. Understanding their ecological and spatial dynamics is vital for forest conservation and climate‐resilience strategies under increasing anthropogenic pressures.

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绘制亚马逊地区大树的密度图

高树（≥60 m）是热带森林的关键要素，对生物多样性、碳储量和生态系统恢复力具有重要影响。然而，它们的密度和空间分布仍然缺乏量化，特别是在偏远的亚马逊地区，限制了我们对它们的生态作用和对森林-气候相互作用的贡献的理解。我们将来自巴西亚马逊900个断面的机载激光雷达数据与环境预测因子相结合，以模拟高树密度。空间外推使我们能够产生区域分布估计，并评估与气候、地形和扰动制度的联系。我们的模型预测，高大的树木分布不均匀，估计密度的14%集中在亚马逊地区的1%，而估计密度的50%集中在亚马逊地区的11%。密度最高的是罗赖马省和圭亚那盾省，那里的可用水量高，闪电或风暴发生率低。模拟密度与地上生物量密切相关，突出了高大树木对碳储量的不成比例的贡献。我们估计巴西亚马逊地区有大约5550万棵高大的树木。这些发现表明，高树分布是生物量模型中一个重要但未充分利用的预测因子。了解它们的生态和空间动态对日益增加的人为压力下的森林保护和气候恢复策略至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

New Phytologist 生物-植物科学

自引率

5.30%

发文量

728

期刊介绍： New Phytologist is an international electronic journal published 24 times a year. It is owned by the New Phytologist Foundation, a non-profit-making charitable organization dedicated to promoting plant science. The journal publishes excellent, novel, rigorous, and timely research and scholarship in plant science and its applications. The articles cover topics in five sections: Physiology & Development, Environment, Interaction, Evolution, and Transformative Plant Biotechnology. These sections encompass intracellular processes, global environmental change, and encourage cross-disciplinary approaches. The journal recognizes the use of techniques from molecular and cell biology, functional genomics, modeling, and system-based approaches in plant science. Abstracting and Indexing Information for New Phytologist includes Academic Search, AgBiotech News & Information, Agroforestry Abstracts, Biochemistry & Biophysics Citation Index, Botanical Pesticides, CAB Abstracts®, Environment Index, Global Health, and Plant Breeding Abstracts, and others.